Study on correlation between TBM tailings gradation and granitic gneiss surrounding rock stability

In the process of double-shield TBM excavation, it is difficult to directly observe and test the characteristics of the surrounding rock. In this paper, the screening test of the different type tailings in the wet state was carried out to obtain the gradation curve and curve evaluation index. Combining with the excavation parameters and the surrounding rock characteristics of the tailings, a comprehensive analysis was carried out to establish the evaluation system among with the tailings gradation characteristics, lithology characteristics and excavation parameters. The results showed that: Sparsely fissured rock: the tailings are extensional fractures, the tailings gradation curve is inverse “S” type and gentle, and the evaluation index value: (1.50 > lg(Cu) > 1.35), (1.90 > Cc > 1.10). Broken surrounding rock: the curve is “L” type and steep, the content of coarse particles is much more than that of fine particles and (1.10 > lg(Cu) > 1.00), (2.60 > Cc > 2.40). Fractured rock: the curve is “Step” type, the tailings particles lack the middle particle size, the minerals are mostly weathered, (2.15 > lg(Cu )> 1.95), (0.09 > Cc > 0.07). The research results have good applicability to the surrounding rock stability evaluation of the example tunnel, which verifies the feasibility of the method.


Overview of tunnel engineering
The site of DXL tunnel project is located in the plateau of Western China.The tunnel is a control project of multi-purpose highway, with the mileage pile number from K8 + 698 to K13 + 482.The total design length of the tunnel is 4784 m, the maximum burial depth of the tunnel body is 830 m, the elevation of the tunnel entrance is 3547.02m, and the design longitudinal slope is 0.4%.The slope rises from the entrance to the exit, and the elevation of the tunnel exits is 3566.18m.The inner diameter of the tunnel is designed to be 8.1 m, and the excavation diameter of the rough tunnel is designed to be 9.13 m.It is a single tunnel with two lanes.The double shield Tunnel Boring Machine construction method is selected for unidirectional excavation starting from the entrance according to the design.
During the tunneling excavation of the tunnel, there were four times jammed accidents at the mileage from K10 + 076 to K10 + 253, which seriously interfered with the progress of the project.According to the preliminary observation and analysis after shutdown, serious internal extrusion cracking occurred in some sections of the lining, as shown in Fig. 1.The surrounding rock was broken.According to the previous geological survey and test, the TBM jammed accidents section has high geostress and tectonic action strongly developed.It can also be determined from the surrounding rock observed during shutdown that the rock mass fissures in this section are developed, and some bad diseases such as rock fragmentation occur in local sections.Therefore, in order to effectively avoid the frequent occurrence of TBM jammed accidents, a method to quickly obtain the integrity and stability of surrounding rock mass and working face during TBM construction is urgently needed, to provide decision support for engineers to adjust TBM tunneling parameters and attitudes in advance.

Overview of tunnel engineering geological conditions and geological survey of the test section
The site is located in the southeast edge of the plateau in Western China, and the area is the intersection of the Himalayas, Hengduan Mountains and Nyenchenthanglha Mountains.Under the influence of regional strongly tectonic action, the tectonic phenomena such as rock mass crumpling, thrust fault and normal fault are extremely developed in the area.The overburden lithology is relatively simple, consisting of loose overburden composed of rock collapse fragments and moraines, and bedrock dominated by gneiss (Table 1).The mountain of the site is covered with snow all year round, and several snow melt lakes are scattered at both ends of the pass at the upper part of the tunnel.The surface and groundwater are sufficient, mainly bedrock fissure type and loose overburden pore type groundwater.Combined with the results of the preliminary geological investigation data of the tunnel and the supplementary detailed geological investigation data of the surrounding rock in the section after the four times TBM jammed accidents, the classification of surrounding rock by water conservancy and hydropower code 18 as follows: the rock mass around the tunnel is of medium quality, and the rock mass unloading zone and fault zone at the entrance and exit slopes basically belong to class V; Some complete rock mass tunnel sections belong to class II; Most of the surrounding rock quality of the tunnel is class III and class IV.The maximum burial depth of the tunnel is 840 m, and the burial depth of the tunnel over 2 km in total of tunnel length reached 600 m.
This study mainly focuses on the three integrity types of sparsely fissured rock mass, fractured rock mass and fractured rock mass.Among them, the lithology of the above three types of rock mass is granite gneiss.The gneisses are relatively developed, the extension length of gneisses is large, the surface outcrop evolves into quasi planar structure, and the fractures are relatively developed.The laboratory mechanical test results show that: the average uniaxial saturated compressive strength of the fresh rock mass in the normal direction of gneissic schistosity is 82.5 MPa; the average uniaxial saturated compressive strength of the fresh rock mass in the parallel direction of gneissic schistosity is 72 MPa.The rock block is of medium to hard strength level.

Test principle
In the excavation process of the double shield TBM advancing towards the tunnel face, the cutterhead of TBM is subjected to the thrust and torque of the oil cylinder, which makes the hob and scraper crush and scrape the rock mass respectively.Among them, the crushing effect of hob shows relatively stable and specific failure characteristics for rock masses with different lithology and weathering degree.At the same time, the response of the tunneling parameters of the TBM to the rock mass with different degrees of integrity will also show differences, which can be reflected in the parameters such as cutterhead penetration, torque, shoe pressure and shoe displacement.According to the characteristics of closed construction of double shield TBM, only the transported rock tailings of the surrounding rock mass information can be obtained directly during the construction process.Therefore, through the comprehensive analysis of the particle distribution characteristics and weathering state of rock tailings, and the change of tunneling parameters during excavation process, a comprehensive evaluation system of tailings grading characteristics, lithological characteristics and tunneling parameters can be established.
In this test, the rock tailings output by the belt conveyor is sampled immediately, and the rock tailings is screened under the wet state, and finally the grading curve and its characteristic evaluation parameter value are obtained.The particle size sampled in this test is greater than 0.05 mm, and the clay particles less than 0.05 mm are not statistically analyzed, and finally the grading curve of tailings greater than 0.05 mm is obtained.In this study, the non-uniformity coefficient ( C u ) and curvature coefficient ( C c ) are used to characterize the non- uniformity and continuity of rock tailings.Because the particle size of rock tailings fluctuates in a large range, in order to facilitate analysis and comparison, the common logarithm value of non-uniformity coefficient is defined, namely lg(C u ) .In addition, in order to effectively define the overall thickness of rock tailings, d 50 is used as another index for evaluation.The three evaluation parameters are calculated as follows: where C u the non-uniformity coefficient, C c the curvature coefficient, lg(C u ) the common logarithm value of non-uniformity coefficient, d 60 effective particle size of rock tailings, d 50 average particle size of rock tailings, d 30 intermediate particle size of rock tailings, d 10 boundary particle size of rock tailings.

Characteristics of relatively complete surrounding rock tailings
The hob and scraper of TBM cutterhead conduct compression tension breaking and scraping and shearing breaking on the complete rock mass, making the rock tailings owning the characteristics of corresponding damage as follow: (1) The section of rock tailings is fresh and unweathered, and the minerals show their original color.Because the test object of this test is mainly granite gneiss, which is affected by the weakening of the integrity of the rock mass by the gneissic schistosity plane, and the rock block fracture surface is a relatively rough microstep staggered fracture and tensile fracture section.(2) As the rock mass is relatively complete, the TBM cutter mainly carries out compression tension and scraping shear damage to the rock mass.The rock tailings fragments are mainly plate-like and schistose, and the fragments are mostly spindle shaped with both ends pinched out.

Characteristics of surrounding rock tailings with relatively developed fissures
For the surrounding rock mass with relatively developed joints and fissures, the cutterhead will not only perform compression tension breaking and scraping and shearing breaking on the complete surrounding rock mass, but also scrape off the rock block with the fissure surface cutting the enclosure.This type of surrounding rock tailings owns the following characteristics: (1) After the complete rock block cut and wrapped by the joint surface is destroyed, it also shows the same failure characteristics as the complete surrounding rock.In addition, due to the cutting of fissures, part of the cross-section of rock is exfoliated along the original fissures, so its color is of certain weathering characteristics, mainly dark-gray, mixed with the yellow of some weathered rock blocks.(2) Controlled by the joint plane, the rock block is cut by multiple sets of joint planes.Combined with the rock breaking effect of the cutterhead, the block retains the original joint cutting plane, which makes the rock fragments show blocky and polygonal shapes, so the block shows the characteristics of polygonal planes.

Characteristics of broken surrounding rock tailings
Broken surrounding rock such as fault zone and influence zone is seriously weathered, and the loose surrounding rock is directly planed by TBM cutter.The characteristics of rock tailings are as follows: (1) The rock tailings is mainly composed of fragments.The weathering trace on the surface of the gravel is obvious, and the surface of the rock block is grayish black.(2) The particle size distribution range of rock tailings is wide, the proportion of each particle group varies greatly, the content of fragments in the fine particle group is large, and the grading curve shows obvious step shape, indicating that some particle groups with intermediate particle size are missing.

Sieve test of tailings in wet state
The round hole sieve is used in this experiment.The aperture combination is: 0.05 mm, 0.2 mm, 2 mm, 5 mm, 10 mm, 20 mm, 40 mm, 60 mm.Statistical analysis is not carried out for particle sizes less than 0.05 mm.Before the experiment, mark the basic information of the tunnel face, and randomly take out the rock tailings on the belt conveyor.Then the sieve test of rock tailings in wet state was carried out.The difference between this experiment and the sieve test in dry state is that water is injected at the top of the sieve lid to assist in screening.It may reduce the adhesion of particles caused by the surface tension of water film on the surface of wet rock tailings, and increase the fluidity of screened particles.After the screening is completed, the fragments in each tray are preliminarily dried on the surface, then are weighed, recorded and finally obtained the corresponding grading curve.

Setting tunneling parameters of the boring machine during testing
In order to obtain the grading characteristics of tailings corresponding to different integrity surrounding rocks during TBM excavation process.The excavation parameters of the excavation machine are limited to a certain range in the excavation testing section.So, the driving parameters are relatively fixed to ensure the single factor of the test results and the reliability of the test data.In this testing study, the excavation parameters were locked and controlled for the testing sections of sparsely fissured rock, relatively developed fissures rock and broken rock to obtain the tailings grading characteristic curves and parameters of the three types of surrounding rock.The excavation parameters of the DXL tunnel test section are shown in

Analysis of relatively complete surrounding rock tailings grading curve and surrounding rock characteristics
There are three relatively complete surrounding rock test samples number: 1-1, 1-2, 1-3.The grading curves of the three samples are shown in Fig. 2. The grading curves of the three groups of relatively complete tailings samples own similar variation laws: the grading curves are relatively gentle as a whole, and the curves generally show the reverse "S" type variation characteristics.According to Table 3, the average particle size of rock tailings ( d 50 ) ranges from 6.99 to 8.11 mm, with an average of 7.43 mm; The non-uniformity coefficient on the rock tailings curve is taken as the common logarithm value ( lg(C u ) ) ranges from 1.34 to 1.49 mm.The particle size continuity of tailings is good, and the distribution of each particle group of rock tailings is relatively uniform; the curvature coefficient is 1.09-2.98,and the curve curvature is small.It can be seen from Fig. 3a that the characteristics of the residual rock tailings screened by the sieve mesh: the color of the rock tailings is gray, the rock surface is relatively fresh, showing the natural color of the original rock minerals without traces of weathering, and the block psephicity is poor.The rock blocks are angular, and most of them are long spindle shaped blocks.The cross-section of the block is relatively rough and distributed in an uneven micro step shape; at the same time, the backwater of excavation is gray.As the rock mass is relatively complete, with good integrity and undeveloped fractures, the damage effect of the cutterhead on the rock mass is mainly manifested as compressive tensile damage, and the cross-section of the rock block is mainly micro steps of tensile damage on the macro.According to the research Song et al. 19 , the damage of TBM disc hob to the rock mass of the tunnel face mainly includes extrusion, shearing and tensile damage, which will produce rock fragments, broken bodies and crushed bodies.The rock tailings formed by the three types of broken www.nature.com/scientificreports/bodies correspond to different particle groups, making the particle grading of the complete rock tailings more continuous.The rock tailings of each particle group is distributed, and the lack of intermediate particle size is not obvious.Therefore, the grading curve of relatively complete surrounding rock tailings is characterized by a gentle reverse "S-type" without obvious steps.

Analysis of rock tailings grading curve and surrounding rock characteristics of relatively developed fissures rock
The sample numbers of rock tailings in surrounding rock with relatively developed fissures are: 2-1, 2-2, 2-3.According to the grading curves of the sieve test of the three samples in Fig. 4 and Table 3, the grading curve of the relatively developed fissures rock tailings generally has similar changes and generally presents the "L-type" change characteristics.The average particle size ( d 50 ) corresponding to the cumulative weight of more than 50% of rock tailings in the three groups of samples is 26.16 mm, and the coarse-grained group of rock tailings particles accounts for a large proportion.The non-uniformity coefficient common logarithm value ( lg(C u ) ) arranges from 0.99 to 1.12, with an average value of 1.06.It indicates that the distribution of tailings is concentrated in the range of coarse-grained group, and the proportion of fine-grained group is much lower than that of coarse-grained group.The curvature coefficient is in the range of 2.36-2.65,and the curvature is relatively large.
According to gradation curve in Fig. 3b, the rock tailings with a particle size over 60 mm has a high proportion.The rock tailings blocks are large.The blocks are plate-shaped and prismatic.There are weathering traces on some sections.The minerals on cross-section are quite different from the natural color of the parent rock, indicating that the cross-section minerals are weathered, which makes the minerals change qualitatively.In addition, the cross-section morphology of the blocks includes micro step shape and approximate plane shape.The backwater of excavation is gray.Among them, the minerals of most micro step sections are relatively fresh, and other sections are mostly weathered in yellow-black color.Compared with the tailings of sparsely fissured rock, some rock blocks have a certain degree of roundness and angular abrasion.In the surrounding rock mass with relatively developed fissures, the rock blocks cut by the primary fissures retain the overall structure of the complete rock mass and remain relatively stable under the unexcavated state.However, the groundwater and gas in the rock mass penetrate and corrode through the cracks of the rock mass, resulting in obvious weathering characteristics on the original structural plane of the fractured rock mass.Because this kind of rock mass still maintains a certain mosaic effect, the fracture erosion surface does not slide, so the rock block will only have a slight degree of erosion.
In addition, the cutterhead of the TBM cuts the surrounding rock, which destroys the initial stable structure of the fractured rock mass, and the mosaic effect of the whole rock block is damaged, making most of the rock mass slide and fall along the primary joint plane.The cutterhead can not cut this part of the rock mass enough, resulting that the particles of this type of rock tailings are generally large and relatively concentrated in the coarse-grained groups, while the content of the fine-grained group is relatively low.www.nature.com/scientificreports/

Analysis of rock tailings grading curve and surrounding rock characteristics of broken surrounding rock
The samples numbers of broken surrounding rock tailings test are: 3-1, 3-2, 3-3.As Fig. 5 shown, for the test grading curves of the three samples, which are different from the characteristics of the grading curves of sparsely fissured rock's and relatively developed fissures rock's, and are in a "Ladder-type" shape as a whole.This kind of rock tailings presents an obvious curve platform, and the rock tailings has the characteristics of obvious lack of coarse-grain group, representing the characteristics of discontinuous grading.In addition, Table 3, shows that the average particle size ( d 50 ) of this kind of rock tailings is in the range of 1.50-6.03mm, with an average of 4.05 mm.Compared with the first two types of rock tailings, the content of fine-grained group is higher.While the non-uniformity coefficient common logarithm value ( lg(C u ) ) is in the range of 1.93-2.15,with an average value of 2.03.It indicates that there is a large difference between the coarse-particle and fine-particle groups.
The curvature coefficient is in the range of 0.07-0.09.According to Fig. 3c, the tailings particles of broken rock present obvious yellow color, and the weathering of the particles is serious.The rock tailings is generally in the shape of small fragments, and the particles have obvious weathering traces and roundness.The backwater water is mixed by yellow and black impurities.Before excavation, the broken rock mass is in a relatively loose accumulation weathering state.The particles are weakly cemented by chemical weathering products, and the particles are relatively fine.The long-term erosion of groundwater and pore water leads to the particles become disintegrated and fine.The physical and chemical weathering effects are obvious.The particles are relatively fine, mainly granular and spherical, and have a certain degree of roundness.The particle surface has the unique yellowing characteristics of continuous weathering.The damage effect of the cutterhead on this kind of rock mass is mainly planing, and only a few large rock blocks have the characteristics of compression-shear damage.Therefore, the tailings of this kind of rock mass are mainly weathered particles, and are mainly fine particles mixing with a large number of weathered solutes.In addition, there are also some large rock masses in this type of rock mass.Therefore, the coarse-grained group formed by incomplete shear failure of cutter head will occupy a certain number, and the intermediate-grain group has not been completely formed.As a result, the coarse and fine grain groups respectively occupy a certain proportion in the grading curve, but there will be the absence of intermediate-particle size, that is, forming a platform of the grading curve.

Analysis of grading evaluation indicators of three types of tailings grading curve
According to the above research, the grading curves of the three types of rock tailings tests have their own specific curve characteristics.In order to further study the particle characteristics of the three types of rock tailings, this study selects three evaluation indicators: the average particle size ( d 50 ), the non-uniformity coefficient common logarithm value ( lg(C u ) and the curvature coefficient (C c ).The statistical results are shown in Table 3,  According to Fig. 6, the average particle size ( d 50 ) of three types of rock tailings is 6.99-8.11mm, 21.50-29.76mm and 1.50-6.13mm for relatively complete surrounding rock, relatively developed fissures rock and broken rock respectively.Mainly due to the influence of surrounding rock fissures and weathering degree, different types of rock mass response different particle sizes during TBM cutterhead excavation.For the granite gneiss in this study, the average particle size of tailings ( d 50 ) and its reference value during TBM excavation are as  According to Fig. 7, the non-uniformity coefficient common logarithm value ( lg(C u ) of three types of rock tailings are also different, and the test values are: broken rock mass (1.93-2.15)> sparsely fissured rock mass (1.34-1.54)> fractured rock mass (0.99-1.12).Similarly, for the three types of rock tailings, the curvature coefficient (C c ) are: fractured rock mass (2.36-2.65)> sparsely fissured rock mass (1.09-1.90)> broken rock mass (0.07-0.09).
To sum up, the average particle size (d 50 ) of tailings varies according to different geological conditions, which cannot be quantitatively defined.However, the relative particle size can be determined based on the statistical analysis of multiple groups of test results in the tunnel site.The non-uniformity coefficient common logarithm value (lg(C u )) and the curvature coefficient (C c ) can be usually used as a reference value.It is corrected according to the test data and retains a certain degree of reliability.The reference values can be referenced as follows: (1) Sparsely fissured rock tailings: (1.50 > lg(C u ) > 1.35), (1.90 > C c > 1.0).(2) Relatively developed fissures rock tailings: (1.10 > lg(C u )>1.00), (2.60 > C c > 2.40).(3) Broken rock tailings: (2.15 > lg(C u ) > 1.95), (0.09 > C c >0.07).

Analysis of the corresponding driving parameters to the three types of rock tailings
According to Fig. 3a, as the integrity of surrounding rock changes from integrity to fragmentation, the penetration of cutterhead increases obviously; the torque of the cutterhead is greatly decreased.The integrity of the complete surrounding rock is good, and the cutterhead can only move forward after breaking the rock and the penetration degree is low; Due to the influence of the cutting surface of fractured rock mass, the rock mass is easier to be scraped off than that of complete rock, so the penetration degree increases slightly.Compared with the other two types of rock mass, broken rock mass has loose surrounding rock mass, maximum penetration degree, but minimum torque.According to Fig. 3b, from sparsely fissured rock, fractured rock to broken rock, the shoe pressure and displacement also show a certain reverse change law.The more complete the surrounding rock, the greater the shoe pressure and the smaller the displacement.This law has a good identification characteristic that indirectly reflects the integrity of surrounding rock.

Comprehensive evaluation method for real-time stability of surrounding rock in TBM excavation process
According to the research results in the article, under the conditions of similar TBM operation parameters, the tailings grading curves of different stability types of surrounding rock present different shapes, the variation range of the grading parameters is also in the range of values that do not coincide.From this, combined with the lithological characteristics of the tailings, an indirect and comprehensive method for determining the stability www.nature.com/scientificreports/ of surrounding rock can be obtained.This study is based on the TBM tunneling project of DXL tunnel.According to the research results of this paper, under the conditions of similar tunneling parameters, the criteria for determining the stability of different surrounding rocks in real time can be obtained: (1) Sparsely fissured surrounding rock The tailings grading curve is gentle and presents an "S" shape.The range of grading curve parameters is: (1.50 > lg (Cu) > 1.35), (1.90 > Cc > 1.0).Lithological characteristics of tailings: the minerals of rock are fresh, low weathering degree, rough rock surface, and the tailings are angular.(2) Relatively developed fissures surrounding rock The tailings grading curve is in a "stepped" shape, and the range of grading curve parameters is: (1.10 > lg (Cu) > 1.00), (2.60 > Cc > 2.40).Lithological characteristics of tailings: There are partial weathering characteristics in rocks minerals, and the tailings appear partly yellow on the rock surface.The size of the tailings rock blocks is polarized, lacking of intermediate particle size of tailings.The structural planes of tailings are obvious.(3) Broken surrounding rock The tailings grading curve is steep and presents an "L" shape.The range of grading curve parameters is: (2.15 > lg (Cu) > 1.95), (0.09 > Cc > 0.07).Lithological characteristics of tailings: The weathering degree of rocks minerals is high, and the tailings are also yellow and black in color, with unclear edges and different shapes.

Conclusion
In this paper, based on the double shield TBM excavation in granite gneiss section, analyses the particle screening experiment statistics, lithology identification on the belt conveyor and tunneling parameter characteristics.Three kinds of grading curves with different degree of integrity and grading curve evaluation indicators-rock characteristics of surrounding rock-tunneling parameters variation rule are obtained, which certain reference significance for identifying the stability of granitic gneiss in time and effectively.The grading curve characteristics and lithological characteristics of three types of rock mass can be summarized as follows: (1) The grading curve of rock tailings of relatively complete surrounding rock mass generally presents an inverse "S" shape, the curve is gentle and the tailings particle size distribution is relatively uniform.The backwater during tunneling is mostly gray; the lithology of the rock tailings is the natural color of the parent rock, with few traces of weathering; the rock tailings particles are angular, and the large particles are mostly spindle shape, with poor roundness.The non-uniformity coefficient common logarithm value is: (1.54 > lg(C u ) > 1.34), and the Curvature coefficient is: (1.90 > C c > 1.09).The cutterhead penetration and shoe displacement take the lower value; the torque and shoe pressure take the higher value.(2) The grading curve of the rock mass with relatively developed fissures generally presents an obvious "L" shape.The backwater during tunneling is gray.The average particle size ( d 50 ) is 26.16 mm, and the propor- tion of coarse-grained group is much larger than that of fine-grained group.The rock tailings block size is large, mostly plate-shaped and prismatic, and some sections have weathering traces, the overall rock tailings presents yellow-black color, and some rock blocks have certain roundness and angular abrasion.The non-uniformity coefficient common logarithm value is: (1.12 > lg(C u ) > 0.99), and the Curvature coefficient is: (2.65 > C c > 2.36).(3) For the Broken rock tailings, the grading curve appears a platform that interrupts the continuity of grading, and the curve is similar to the "Step" shape.The coarse and fine particles of rock tailings can be distinguished obviously, and part of the intermediate grain group is missing.The mineral weathering is serious, and obvious weathering products appear.The surface of the block is yellowing.The backwater during tunneling is yellow and mixed with black weathered solutes.The surface of rock particles has obvious rounded characteristics.The non-uniformity coefficient common logarithm value is: (2.15 > lg(C u ) > 1.93), and the Curvature coefficient is: (0.09 > C c > 0.07).The cutterhead penetration and shoe displacement take higher values; the torque and shoe pressure take the lower value.(4) In this study, the tailings are quickly wet screened to quickly identify the lithological characteristics of rock tailings.It can provide certain evaluation parameters for timely and effective evaluation of the lithological stability characteristics of the tailings at the current tunneling position.Combined with the results of this study, it can be adopted: type of grading curve, average particle size ( d 50 ).The non-uniformity coefficient common logarithm value ( lg(C u ) ), the Curvature coefficient ( C c ) and lithology characteristics of rock tail- ings.Based on the above evaluation indicators, the stability of surrounding rock can be evaluated effectively.(5) This study focuses on the testing of tailings with a particle size greater than 0.05 mm in a wet state, but there is a lack of testing for tailings with a particle size less than 0.05 mm.In subsequent research, a rapid method for obtaining testing parameters can be developed for particle size less than 0.05 mm of the tailings, so that the grading curve and parameters of the tailings can be completed.

Figure 1 .
Figure 1.Longitudinal cracking of lining segment at two o' clock.

Figure 2 .
Figure 2. Grading curve of surrounding rock tailings of sparsely fissured rock.

Figure 3 .
Figure 3. Lithological characteristics of three types of surrounding rock tailing: (a) characteristics of sparsely fissured rock tailings on 20 mm sieve mesh, (b) characteristics of relatively developed fissures rock tailings on 60 mm sieve mesh, (c) characteristics of broken rock tailings on 5 mm sieve mesh.

Figure 4 .
Figure 4. Grading curve of surrounding rock tailings of relatively developed fissures rock.

Figure 6 .
Figure 6.Average particle size (d 50 ) distribution of three kinds of testing rock tailings samples.

Figure 7 .
Figure 7. Distribution of the non-uniformity coefficient common logarithm value (lg(C u )) of three kinds of testing rock tailings samples.

Figure 8 .
Figure 8. Distribution of curvature coefficient (C C ) of three kinds of testing rock tailings samples.

Table 1 .
Lithology distribution characteristic table of tunnel site.

Table 2 .
Results of real-time tunneling excavation parameters of double shield TBM.

Table 3 .
Test sample characteristic particle size and grading evaluation indicators summary table.